Metering valve for aerosol container



April 18, 1961 B. DE GORTER 2,980,301

METERING VALVE FOR AEROSOL CONTAINER Filed Sept. 2, 1958 3 Sheets-Sheet l INVENTOR. fienammm Jo. Gerrar- April 18, 1961 B. DE GORTER 2, 8 ,30

METERING VALVE FOR AEROSOL CONTAINER Filed Sept. 2, 1958 5 Sheets-Sheet 2 INVENTOR. 3:5- Bahia-min dc Garrar- April 18, 1961 B. DE GORTER METERING VALVE FOR AEROSOL CONTAINER 3 Sheets-Sheet 3 Filed Sept. 2, 1958 INVENTOR. B2 ur -in 4:. Garfu- U ited States 2,980,301 METERING VALVE FOR AEROSOL CONTAINER Benjamin de Gorter, Los Angeles, Calif., assignor to Riker Laboratories, Inc., Los Angeles, Cahf., a corporation of Delaware 7 Filed Sept. 2, 1958, Ser. No. 758,344

11 Claims. (Cl. 222-394) The present invention relates to metering valves and,

especially to metering valves for dispensing pre-determined amounts of aerosol sprays produced through the aid of a low boiling propellant.

In the dispenser packaging industry, various liquids are stored under pressure for dispensing in the form of fine sprays, mists, or forms, commonly referred to as aerosols. These aerosols are of widely difiering character and include, for example, insecticides, shaving lathers and pharmaceutical preparations for either topical application or inhalation therapy. In the dispensing of certain of these aerosols, such as perfumes and particularly those of a pharmaceutical character, it becomes desirable 'to be able to dispense measured doses with particular accuracy. Measuring valves are known in which a clo- 'sure for a container contains a stationary measuring 2 ume of'material will be dispensed and there will not be protracted discharge and waste of the material in the container. V p g It is thus a primary object of the invention to provide 'metering valve mechanismvfor dispensing a metered quantity only of a pressurized fluid material from a container von each actuation of the valve mechanism.

' Another object of the invention is to provide a simplified construction for a metering valve which is durable, economical and dependable.

' It is another object of this invention to provide a metering valve construction which may be used satisfactorily with a container in the erect or the inverted position.

' Another object of this invention is to provide a metering valve construction which can be easily adapted for tank. A valve stem is slidable within the tank and is provided with orifices so that, on depression of the valve stem, liquid contained in the stationary measuring tank can be dispensed through the valve stem,

Many of 'these known measuring valves discharge on the downward or inward stroke, and the measuring tank fills on the upward or outward stroke. In such constructions, leakage or drainage from the measuring tank tends to produce an incomplete first discharge.

The present invention resides in the concept of a metering valve for dispensing measured volumes of fluid material from a container comprising a closure for closing the mouth of a container; at plunger extending through an aperture in the closure and reciprocably slidable therein, the plunger slidably and sealingly engaging the closure; a hollow measuring chamber formed within the terial within the'container and the pressurized fluid material flows through the orifice to fill the hollow measuring chamber; and means for moving the plunger within the aperture to an outer discharge position where both the orifice and inlet simultaneously communicate with a channelformed in the closure adjacent the plunger so that the pressurized measured charge of fluid material flows through the orifice, the channel, 'the'inlet and the hollow exit chamherto theexterior of the container; whereby the fluid contents of the container are dispensed as a series of charges or puffs of uniform volume.

By employing a valve mechanism according to the invention, after a charge has been dispensed, no further pressurized fluid material will be dispensed until the valveis reactuated. Should the operater inadvertently pressure filling.

It is a further object of the invention to provide a metering valve which makes possible the dispensing of smaller doses with more accuracy than is practicable by the use of the dispensing device involving a stationary measuring tank.

Another object of the invention is to provide a metering valve which enables substantially all of the contents of the container to be dispensed, eliminating the need for an auxiliary drainage device.

f In the metering valve according to the invention, the pre-determined volume of the hollow measuring chamber in the plunger can be accurately selected or adjusted prior to assembly to any desired volume. In one embodiment of the invention, this can be done by forming the plunger from two telescoping tubular members that are adjusted until the hollow measuring chamber has the desired volnme, and then fixed with respect to each other. The outer telescoping member can havean out-turned flange serving as a stop to limit the outward movement of the plunger. The plunger can have the shape of a cylinder. The term cylinder is used herein in its broad geometric "sense, meaning a closed curved surface generated by a straight line moving so that it is always parallel to its first position and constantly touching a given curve.

A feature of the invention is the provision of sealing means at the aperture in the closure through which the plunger reciprocates and achannel so shaped and positioned as to provide a communicating path between the orifice and the inlet to the exit chamber. Another feature of the invention resides in the location of the orifice so that at its inner priming position it is adjacent the top of the container, whereby the container when inverted can be fully emptied of its liquid content.

Other objects, features and advantages of the invention will appear to those skilled in the art from the following specification and claims, considered in conjunction with the accompanying drawings. 7

In the accompanying drawings, in which certainphysical embodiments of the invention are shown for illustrative purposes:

Fig. lis a longitudinal section through acontainer and valve mechanism according to the present invention; showing the valve inthe discharge position;

Fig. 2 is-a detail transverse section taken'on line 2'-'-2 of Fig. 1;

Fig. 3 is a partial view similar to Fig. 1, but showing the valve in the priming position;

Fig. 4 is alongitudinal section through a container and valve mechanism illustrating an alternative form of the Idepress the plunger to its priming inner position'for a 'p'er'iod longer than intended, only the same 'uniform vol- .invention, showing the valve in the discharge position;

; Fig. 5 is a partial longitudinal view of the container and valve shown in .Fig. 4, showing thevalve in the filling priming position.

her shown in Fig. ,7.f

' PThe container :10 can be made of glass r plas 2 a$S 4 i 1 fYP? of m eii 'siaafi used; V metfl isuch as stainless steel. The ato resaid liqui' H prises, generallwa propellant of the low-boilin he 9 's PIQP ms s ha a. t shear iiwa ia e be i Q T bQ' it ,9 Q 1 ir me n i 'ca d 5 in's h i em nd affording s t p teiial seate d ongasket'14. A 'closurecap l fi'of rnetal or s m la mater al n l s s thesaskets 12; 14 5 a 'rfie' ca rs nasa flange sr rmediat its re 7 to the upward mevementbr plunger 20, a r ne "'channe' l'40 formed'betiizeen the plunger 20 and theiintenniediate gasket, 14. Thus; at all rotational positions or r l Y 1 fllaPas eee of..pre u 1ized:fluid matena1 from 1 v up r .Qps ensl bfehellqw exitlchamber i is f closed ofi'by a suitable actuating buttonzoryappli cator Fig.16 is a detail transverse section taken on line 'ofFigp4i" Fig; 7' is a partiallongitudinal view through a container and valve mechanism illustrating another form of the invention, showing the valveinsthe discharge posi- Fig. '85 is a vertical view of the spring R fe ns' YFiS-I 3} ia 5 e rew essi. container "10: is, adapted to holdlliquidunder pressure. 10

numeral ll'is disposed inthe mouthof the contain 7 r .of the ,gi e'n mg of F in'Fig. '1, the sealing means includes as aling gasket 12 of resilient materialseated on thelip l'l g at-the in ti'th at the ,cdn a ne a t nterm a gas e 14 whi h t' an o r si ie t non resilientmate ia sea ed 9 1' t ls a n a k t 1 d a in asket 15 otresilientm'a- 2 ii s ti ht camper a ut thelipf 1a 'df'th p g jain t9 "11 Id the slsure parts fin'nly in place n ne; .pr e u;

ze onneq he ppe p rt n; a ransve sfthfl d l w' measu ng amber 2 and chaml er'izfi; n abutm n ex endin fli. pp r easiere ilh erzl s anarg hr i jgh hep uns Wal nto he hel- .befri-zz; and a in t- 34 extendi g a othe; ho low exi ehamber I ie'. ass age lit. at s ats; a fthe uppe'r surrag v aslget .15 p helicalicempression s p g r and en a es washersa v a i tm i k "T e pr g yield a y ur e h p r 2. 211 l i i at i e. n et. 34. bmmunicate. iwith the;

8 inf hse efl t s n ssu 'e 1 er i811,

'liollow-mea'suring'chamber 2; through orifice fl32 r1chan do pel 40,'in1et 5ians e lowexit hani r. 2.6.

dQYiQQ (not shown) such asis'descrihed, in United States ntllo. 746,796 to St, Germain. sIn VFig."2,the 55 ates theout'er perimetermofs stp1 24. 151

container is inverted and the plunger is depressed by pr sing 111 99; the ast atingibutton that s o n) at: he

positi on'shown infiggfi. TheispringTBS-is sci/con strueted and dimensioned thatsolid contacts-dithe coils of-th ,spring prevem the plunger from.-moving-any farh 1 1 tq:chnta iner1101hansis shown Fig. At: this tlqntheprifice 3g is in communication 'with the upper 75 1511' ofthei plunger, wherebvthe; plunger, is depressedto 70 the hollow measuring chamber 22.

spring 38 isfrein v dand c ia 's zs nq zl is t e Q e I a portio'n of eentainer d0. when the sensing is inverted, the last dreg of fluid material will drain mto With the parts in the position shown in Fig. 3, the pressurized' mixture of low-boiling propellant liquid and {useful substance, such as a medicament, flows through orifice 32 into hollow measuring chamber 22. Thus the measuring chamber i s iprimed with a measured charge or an mat i ls In rim n pps tien the penlnhss eonseictio'nsr the "gasket" 12"agaii1st the transversewan 28 seals the containeragainst escapexofthe pressurized fluid; Thercafter',-ithe downward pressure on spring 38 is released and the plunger moves *upwardl y 'to'tlieposition-shown in Fig.,1,where the upward movement is I limited by inesrqrm epgg iag' gasketfizi At this position, the pressurized "charge of mixture in measuring chamber 22 is discharged via orifice 32, channel 40, inlet 34 and exit chamber 26 to the exterior of the container.

s l nsthisimoven ent of the plunger gll todisehar ging posh l es, e ontents at he m iILI SfiYQiQ E iQ in rai r 10 wil fi s e eal gent-t ter a 32 passes within the p eriphery" oi thegas et 112' and addi ona y, a d by t p2! psasing' he gasket 12 w the p ng lll h s Pi es imi v of its t avelit is desired to pressure-fill the container 10, the v, m ses he un en n 01 exit cham r 2 Nextrt fie e t e h i w is cha h pluse 1. 1 t ned to th posirioner rig. age the Spring 3st; attached. p

n. the h il I 19 ,8 qert e qt th Pa sm I es'r d, to hfql h j ipi d s ribe d a e reteralce sh r teri apn dt e e q whi h q resnen tqthq e Pre- 'viousiyiisea." a s r 7' V Inthe embodime ts? theis en qs ofifii s-e and 1155655 Str t ri e the Shswn i l the 9; s51- 1 edare ni heplunsa isib e rma rthe Ashes, shares-tha is i aed sr m w perinhe y-withthehewshas .s l nd- .f Fi -'6- Thesa lMes beinteg e withpn "t a kets 2- and 15 -1. de ired,- -.A v rtical lon ho e .lii tsrrses in hesasketfl; h plu s r 7 flie aniupper-rportign. 6;having ga,hollowexit sha ;he 8. o med herein, aeahutm nrrfi cu d t f h r is av a i W groove r'waist54'having an orifice '56iextendingth-r ,th groove, and a transversewall 58rof v;. 33 see iusmate ia rimped inrplace by the grooves 91"- 9 .4: 'Ifhe-plungerf42 is completediby a lowerpo "on 60 eonstrlictediofqa shortlength'o-ftube glosed at ts lowerend and having an out-turned flange. 62 at its upper end serving as a stop, to, engage gasket'12 and upward-movement of plunger 42; :Lwer, p01.- .t io n '60 can be; sealed, "at any selected positionon the upper: portion 46fbf; plunger 42to; determine the volume gfiza-hollgwmeasufing chamber 64. lherengagement, of lowenpprtio g 60 with: upper portion 46 can be'made adju stable; zbyserew threads, so :that the volume of m asuring Ghambenfi can bee-readily adjusted;

seen- Fig. 4,- irrespectiveuof 'rotation of the-plunger e. 56 .willzflalways'he in communieatidn 'with h a apathway forined by the annularggrooves N and the vertical'groove-fl; 1

heem o im n e g -i an =-8it 1O 1 1 jf closing theim'outhof container: 10: 1neludes aniuppr gasket ts; oflresihent materialand having a sealing lip 68 ass :a? vertical- -cylindrical;--lao re Jil -of greater diameter thatoflip fl; lower sealing gasket 7} is positioned w ref ree; re Afr, a are a 5.2 Xtending' -h zs p v member '74 has an upper flange ,76 positioned beneath the Iowergasket'72. A resilient gasketi78ispositio'ned beneath the flange 76. A 'metalcap '80 clamps the closure parts together and is crimped around the lip '13 of container 10. Y V

.The cage 74 is preferably formed of metal and has four L-shaped bars 82 extending downwardly and inwardly from flange 76. A boss ,83 connects thelower ends of the bars 82 The plunger Bhast. an} exit chain.-

ber'86, an inlet 88, a'transverse wall'90, a hollowmeasuring chamber 91, an orifice 92, ,an enlarged portion M having an upper shoulder 96 and a'lower shoulder fis, and a hollow guide portion 100 slidably engaging the 83. A helical compression prrn gmzennrnestaerqss 83 and the guide portion, H10. ,grheea ages he bars '82 and the lower shodlder98 :brgemar ed portion 9410 yieldingly urge the plunger to the outer position 'showninFigJ. r

By inverting the container and depressing the plunger 84 in a manner similar to that previously described, .the orifice 92 is exposed to the reservoir within the container and the measuring chamber 91 fills with a charge of pressurized fluid material. Upon release offthe plunger,

the spring 192 returns the parts to the position shown in a Fig. 7 where the pressurized charge of fluid material in measuring chamber 91 movesviatorifice 92, bore 70, inlet 88, and exit chamber 86 to the exterior of the container.

The cage 74 can also serve to carry a dip-tube 104 so that this embodiment can be used in the erect position.

It will be seen that the present invention provides a metering valve wherein the hollow measuring chamber is primed on the downstroke thus ensuring an accurate -full charge or dose of material on the first discharge.

Further, it will be seen that when the device isused in the inverted position, the position of the orifice, as 32 in Fig. 1, in the priming position, viz., just below the gasket 12, ensures that the last td'regs of the contents of the container can be expelled, thus avoiding waste. 7

Various other modifications in construction are obviouslyj possible without departing from the essential co ncept of the invention and thelinvention. is accordingly not limited to the specific details of the constructions shown and described hereinabove for purposes of illustration. All such modifications as properly fall within the scope of equivalency of the following claims are therefore intended to be covered. l

I claim:

1. A metering valve for dispensing measuredvolumes oifiuid material from a container comprisingaaclosure for closing the month ofa container, said closure having an aperture formed therein extending between opposite surfaces of said closure; said closure having two spaced sealing portions having bores formed therein; an intermediate closure portion positioned between said sealing portions and having a bore formed therein of greater cross-sectional area than said bores in said sealing portions; said bores in said sealing portions and said boreiu said intermediate closure portion registering to form said aperture; a plunger reciprocably positioned in said aperture with said intermediate closure portion forming a channel adjacent said plunger; said plunger sealingly and slidably engaging said sealing portions; said plunger having a hollow measuring chamber formed therein and an orifice extending between said hollow measuring chamber and the exterior of said plunger; said plunger having a hollow exit chamber formed therein and an inlet extending between said exit chamber and the exterior of said plunger; said orifice and inlet being no farther apart on the longitudinal axisof said plunger than the length of said channel in the direction of movement of said plunger so that the plunger can be moved to a position where both said orifice and said inlet simultaneously communicate with said channel; whereby said plunger can be pushed through said aperture to expose said orifice to the plunger having a hollow r 6 7 interior 10f rthetcontainer with thegsubseduent said'hollow measuring chamber. with avcharge ot filiid material, and said plunger; can be movedin the opposite direction through said aperture to a positionwhere said orifice and said inlet simultaneously'communicate' with said channel and a measured charge under pressure moves through said orifice, said channel and saidinlet intofsaid' exitchamben U j 3 2. A metering valve as .set forth in claim 1 and including stop means torjlimiting the reciprocation ,ofl's'aid plunger in said aperture so that the inlet to said exit chamber cannot be exposed to the "interior of the containerk H v a n t 3'. A metering valve as set ior'th in claim' Iand' incluih ing an abutment secured'tofsaid plunger; d'exterrding outwardly therefrornpa lcornp'ressiomspring encircling said plunger 'and' engaging said abutment; saidtspring yieldingly pressing said plunger through said aperture outwardly from the interior of the container; said spring being so constructed and dimensioned that at maximum compression said orifice'is exposed to the interiorof the container but said inlet is not so exposed; and a stop-secured to said plunger and extending-laterally therefrom to engage the surface of said closure adjacent the interior of the container for limiting the outward movement-of said plunger at aposition where-said orifice and said inlet simultaneously communicate with said channel.

4. A metering valve as set forth in claim 3 wherein said spring is so constructed and dimensioned that at maximum compression said orifice is exposed to the topmost portion of the interior of said container.

5. A metering valve for dispensing measured volumes of fluid material from a container comprising: a closure for closing the mouth of a container, said closure includ ing two spaced'substantiallyjparallel resilient gaskets having registering bores formed therein, an intermediate closure portion positioned between' -and substantiallyparallel to said gaskets, said intermediate'closure portion having a bore formed therein of g'reater'cross' sectional area than said 'bores ins'aid gaskets; said bores in said gaskets and said intermediate closure portionregis'tei'ing to .form an aperture extending throughisaid closure;'fa

cylindrical plunger reciprocably positioned in said taper-v ture with said intermediate-closure portion forminga channel extending around the entire perimeter of said formed therein and extending into the interior of the corit-ainer; a stop secured to said plunger and extending laterally therefrom adjacent said hollow measuring chain: her for engagement with a gasket to limit the movement of said plunger outwardlyithrough said aperture; said exit chamber formed the r: said plunger having a transverse wall separatinglsaid. 1101f low measuring chamber and said hollow exit: chamber; said plunger havinganhorifice extendingitherethrough adjacent said transverse wall from saidhollow measur ing chamberto the exterior of said plunger; said plunger having an inlet extending therethrough adjacent said transverse wall from .said hollow exit chamber to the exterior of said plunger; said orifice and said inlet being no farther apart on the longitudinal axis of said plunger than the length of said channel in the direction of movement of said plunger so that the plunger can be moved, to a position where both said orifice and said inlet simultaneously communicate with said channel; an abutment secured to said plunger and extending laterally therefrom at a position adjacent the outer end of said hollow exit chamber; a helical compression spring encircling said plunger and engaging said abutment to yield-ingly urge said plunger to a position where said stop engages a gasket and said orifice and said inlet simultaneously communlcate with said channel; said spring being so constructed and dimensioned that at maximum compression said orifice is exposed to the interior of the container but said inlet is not so exposed.

'said'plungerhas a pair of annular inwardly-depressed V grooves formed therein; said'orifice and said'inletexi telnding hl'q lg fihe depressed portions of saidi'grooves; 1 said channel extends'around only aportiori of th'ef 5 'perim eterrof said plunger.

'- w 7. A metnngvalve for dispensing measured volumes hollow measuringj chmabjerfl and the exterion oi. said plunger; said plunger having ahollowL exitjchamlier' and 7 V V an'inlet'extending between said, exitl chafm-berr and the exterioroftsaidlplnngerlsaid closure}assemblv including V V achannel extending alon'g 'the'path of movement'ofjsaid V I plunger for; a portion of thelength "of said Tclosurejsk a sembly axially 'of the contain i, said orifice and, said'inlet b i no farther apart onthejlbng tudinal of said plunger th'aiythe, length bffi aidjchannel infthe direction 9 m l entiqf s d pl ge s 'l u p un er a A metering valvev asset forth in claims wherein '2 7 l soapz a 7 formed therein, said hollow measurin g chamber being elosed'eytcept 'for an orifice-extendingbetween saidihollow nieasuring'chamber and the exteriorof said plunger, said plunger having "a hollow exit'c a lierand. an inlet extending between said exit chamber. and the exterior of said plunger; said closure assemblylincludingtalichannel contiguous tq and communicatin'ggwith-saidpassagevvay intermediate the lengthl ofl said passa eway, 'saidiforilice andsaidiinlet being'n'o 'farther apart on. the longitudinal axis of 'said plunger, JthanI the length of said channel in the direction ofjmovement' ofsaid plunger, so" that saidplunger can be, moved to" apositionfinwhich both said or'ifig V and; said inlet simultaneously; communicate with said channel, and means for limiting the movement of said :"plung'er toward the interior'oi the container wh y s do fice ay: h'elexposed to' the "interior or the container-but said inlet may not be sosexposed.

9."A-m easuring valve-ffor dispensing measured vol- 7 times of fluid material-flotilla lcontainetj'comprising: a

closure assembly forjfthe flmouth gof the; container, said "i clqsure assembly i including; sealing means, said closure assembly including said. sealing imeanslhaving 'a assageay ,t fl bl h x d axially p'fS cr ew; a a

'plungerfmounted -f or reciprocating sliding movement in 'said passageway; said plunger engaging said sealing means in sealing relation dnringfthe sliding'm'ovement 'ofsaid plungen said plunger having 'gaihollow measuring chainfber formed therein, .saidhollovy rneasuring' chamber be 1 be moved to a positionjnlwhich'bothjsaid'orifice 11 7 ing closed except for; anorifice egrtending w e L saidi nlet'simultaneously'cdmmunicatelwithsaidchanneli lQW m asurmachamber and; the. QQXteiIiOlf .of said plunger, said plunger having a hollow exit chamber and t tan apertured' cage memberfsecuredto said rclosurefalnd e rtending intothe interior of thecontainer; aboss'secufedg in v w p p exter or "of said plunger; said lpas'sageway having a 'por to said cage member and extending tovvardtsaid closure assembly; aguide portionlextendin g from'theliimier end a v l j inlu iap s debly; en g n ls 'i Ibos';J-Said 1 a plunge; having an enlarged portion with a fiist shoulder. I

i adjacentsaid guide portioniandajsecond shouldenforjeii f gagenient' with said. closu'r e assembly tqliinit the mOYe, me it qitsa i Pl h rib wardly; h 'Said p s g y; I 1 L 1 a a d ahe ia ompr ss o p ingeneirc i i bos aii a saidj;guide1 fpbrtion and engagingss aid 'ci'g'e1 1and saidfirsfi V W dinglyurgingl said plunger-15a position frwheretsai secon s ouldereng'ages saidjlosure'assembly A r eandpsaig inlet simuit a'neoasiy*eom rj "'municate a id channel, said's'priiigfrbeing so eon;- j V structed and dinlensionedthat at jmaximum'conipression t d orificefisgexposed tofithe'finterior ofthe container in l V H V, V V V a i said plunger has' 'a-pairiofjannular inwardly-depressed A Jae-easing valve fo dispenstn'g niasuid i'v in :sealingl relation during the sliding movement of said ums1of fluid"materialpfroma eontainencomprising: a plosureya'ssemblygfoij the inouth of .the conta'ineri said .1g 7 7 en u e assemhly including' sealingmeangisaid 105m- V o assembly'including said-se'alingimeanszhaving a passage-i p gvvay' tlierethroughexte'ndin'glagrially of{th containeria plunger-Imountedfor reciprocating-sliding movement in said passageway,said.plnngerengagingsaid sealing means a 7 .j, n n V 1 2,837,249 Meshberg 1 plan eflsaid'plunger havingahollow measuring chambe j. V

aninlet extending between saidexit .chamberland' the tion of its 'lengthof increased cross'sectionaljarea to form a a chanpeljlyin glradially outwardly of'said plunger, said orifice' and said'inlet ljeing no farther apart ontheJongitudinal axisofgsaidplunger thanjthelength of s'aid channel in'the direction of movement ofsaid plunger, so that i said plunger'can' befmovedtofa positidn'rinwlaich both IOJA'meaSuringvalve'as'definedjn 1 9 in which said 'ch'annel is positioned in salid sealing means. 1 f

lliA m'e tering'valve a s defined in clainig8 in which grooves formedftherein; saidlonifice and said inlet extend- Oct. 28, 7195s 

